Based on the fully Cartesian coordinates, a differential/algebraic equation system of multibod.
利用完全笛卡尔坐标描述多刚体系统,建立多刚体系统动力学微分-代数方程。
The coordinate system must therefore be mapped from logical Cartesian coordinates to physical screen coordinates.
因此,坐标系统需要从逻辑坐标系转换到物理坐标系上去。
The yawp process such as (CFAR) is very complex, and have to complete on very short time, Image display system must change polar coordinates into Cartesian coordinates quickly.
杂波处理如恒虚警处理本身比较复杂,这类处理过程又要求快速,图像显示系统要求及时的把接收到的雷达方位数据从极坐标转换成直角坐标。
The formulation of kinematics and dynamics of multibody system based on the fully Cartesian coordinates has an important advantagement in computational efficiency.
最后,通过对一个闭环柔性多体系统的动力学与控制仿真计算的实现,表明上述方法的可行性。
A Cartesian coordinates robotic system was developed to transplant tissue culture plantlets or scions from a flat plane to culture flasks in order to minimize the need of labor.
本研究设置一套直角座标机器人系统,用以扦挿移植组织培养苗至培养瓶或相关容器中,期能取代移植作业的人工,降低此一产业的人力需求。
A Cartesian coordinates robotic system was developed to transplant tissue culture plantlets or scions from a flat plane to culture flasks in order to minimize the need of labor.
本研究设置一套直角座标机器人系统,用以扦挿移植组织培养苗至培养瓶或相关容器中,期能取代移植作业的人工,降低此一产业的人力需求。
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